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So sánh khả năng phản ứng của gốc propargyl (C3H3) với phân tử ammoniac (NH3) trong pha khí

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Bài viết tìm hiểu các cơ chế phản ứng giữa gốc propargyl và amoniac (NH3) hoặc gốc metyl (CH3) đã được nghiên cứu bởi Lý thuyết hàm mật độ (DFT) bằng cách sử dụng hàm B3LYP kết hợp với bộ cơ sở 6-31 ++ G (3df, 2p). Mời các bạn cùng tham khảo bài viết để nắm chi tiết hơn nội dung nghiên cứu.

078-085 3 3 3 3 *, , Nguy n 1, , , -6- 3H3 -02-2017 c metyl 6-311++G(3df,2p) + NH3 C3H3 + NH3 3H3 + CH3 (C2H2 + C2H4 3H3 + CH3 3H3 : (HCCCH3 + NH2) + NH3 ammonia, metyl Abstract The reaction mechanisms between propargyl radical and ammonia (NH3) or methyl radical (CH3) have been studied by the Density Functional Theory (DFT) using the B3LYP functional in conjunction with the 6311++G(3df,2p) basis set Our calculations show that the C3H3 + NH3 reaction has two main entrance channels: H-abstraction and addition while other has only one type of entrance which is addition If two additional reaction pathways of C3H3 + NH3 have relative energies (kcal.mol-1) are found to be fairly high, the two additional directions of C3H3 + CH3 have no transition states at the beginning of entrance In terms of thermodynamic side, all of products are possible to be produced at the investigated condition, in which the product P2 (HCCCH3 + NH2) of the first system and P6 (C2H2 + C2H4) of the second reaction are the most favorable Besides, the analytical results of energies showed that the C3H3 + CH3 reaction takes place more easily compared to the C3H3 + NH3 system Keywords: Reaction mechanism, propargyl radical, basis sets, ammonia, methyl radical * 3 3 3 3 3 3 3 3 3 * 2 078-085 2 2 3 ° 3 3 3 n 3 3 3 3 3 3 3 078-085 3.1 B m t th C3H3 + NH3 3 13 3 x 13 13 y 13 13 3, 11 13 11 12 13 10 12 14 18 20 11 21 13 3H3 + NH3 3 3 3 3.2.1 3 3 3 3 3 3 3 3 2 3 8 16 12 3 2 12 11 11 13 16 078-085 17 18 2 19 6 17 18 17 18 17 15 15 19 3 3.2.2 18 19 19 19 18 19 19 18 17 16 2 19 17 18 16 19 3 3 16 17 3H 3 3 4 2 2 + CH3 3 3 078-085 3H3 3 + CH3 14 3 3 3 14 14 2 3 3 14 15 2 16 3 2 3 1 14 078-085 3 2 3 2 4 2h 5 5 2 2 2 10 078-085 2 3 3 3 3 3 3 3 3 3 3 3 3 10 13 10 3 2 2 13 10 13 11 12 13 3 3 3 3H3 CH3 3 3 3 3 078-085 Tisdale, Samuel L.; Nelson, Werner L.; Beaton, James D Soil fertility and fertilizers, New York: Macmillan, (1985) 161 168 Benini, Stefano, Wojciech R Rypniewski, Keith S Wilson, Silvia Miletti, Stefano Ciurli, and Stefano Mangani A new proposal for urease mechanism based on the crystal structures of the native and inhibited enzyme from Bacilus pasteurii: why urea hydrolysis costs two nickels Structure 7: (1999), 205216 Christianson, C.B., et al Microsite Reactions of UreanBTPT Fertilizer on the Soil Surface Soil Biology and Biochemistry (1993) 1107-1117 (24) Torello W.A and Wehner D.J Urease Activity in a Kentucky Bluegrass Turf Agronomy Journal, (1983) 654-656 Ken R D, Wu C H, Yong J N Pamidimukkala K M & Singh H J, Energy and Fuels, 2, 454 (1988) Ken R D, Singh H J & Wu C H, Int J Chem Kinet, 20, 731 (1988) Nguyen T L., Mebel A M, Kaiser R I Theoretical Investigation of the Triplet Carbon Atom C(3P) Vinyl Radical C2H3 Thermochemistry of C3Hn (n=1Chem A, 105, (2001) 3284-3299 Nguyen T L., Mebel A.M., Lin S.H., Kaiser R.I., 2H3(2A') H2 Photodissociation of H2CCCH(2B1) at 193 and 242 A, 105, (2001) 11549 11559 Parsons A F., An introduction to free radical chemistry, Blackwell science Ltd (2000) Steven E Wheeler, Kenneth A Robertson, Wesley D Allen, and Henry F Schaefer, Thermochemistry of Key Soot Formation Intermediates: C3H3 Isomers, Center for Computational Chemistry University of Georgia, Athens, GA 30602 (2007) (2014) 305-311 Vadim D Knyazev, Irene R Slagle Kinetics of the Reactions of Allyl and Propargyl Radicals with CH3 J Phys Chem A, 105, (2001) 3196-3204 Nobel Prize in Chemistry (1918) process" (2009) Haber-Bosch "Chemistry of the Group Elements Sr, Ba, Ra" BBC.co.uk (2009) Be, Mg, Ca, Anna L Garden and Egill Skúlason* Mechanism of Industrial Ammonia Synthesis Revisited: Calculations of the Role of the Associative Mechanism J Phys Chem C, 119 (47), (2015) 26554 26559 "ISO detects a new molecule in interstellar space" Science & Technology European Space Agency (2013) Hall, G E.; Vanden Bout, D.; Sears, Trevor J "Photodissociation of acetone at 193 nm: Rotationaland vibrational-state distributions of methyl fragments by diode laser absorption/gain spectroscopy" The Journal of Chemical Physics (1991) "Trace Gases: Current Observations, Trends, and Budgets" Climate Change, IPCC Third Assessment Report IPCC/United Nations Environment Programme (2001) M J Frisch, G W Trucks, H B Schlegel, , J A Pople Gaussian, Inc., Pittsburgh PA, (2009) Frank Jensen Introduction to Computational Chemistry; Second edition; John Wiley & Sons, Ltd (2007) Pedley, J.B., Thermochemical Data and Structures of Organic Compounds, Thermodynamic Research Center, Texas A & M University, College Station, TX, (2015) ... Tisdale, Samuel L.; Nelson, Werner L.; Beaton, James D Soil fertility and fertilizers, New York: Macmillan, (1985) 161 168 Benini, Stefano, Wojciech R Rypniewski, Keith S Wilson, Silvia Miletti,... costs two nickels Structure 7: (1999), 205216 Christianson, C.B., et al Microsite Reactions of UreanBTPT Fertilizer on the Soil Surface Soil Biology and Biochemistry (1993) 1107-1117 (24) Torello... Photodissociation of H2CCCH(2B1) at 193 and 242 A, 105, (2001) 11549 11559 Parsons A F., An introduction to free radical chemistry, Blackwell science Ltd (2000) Steven E Wheeler, Kenneth A Robertson,

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